Abstract [en]

Adolescence is associated with high impulsivity and risk taking, making adolescent individuals more inclined to use drugs. Early drug use is correlated to increased risk for substance use disorders later in life but the neurobiological basis is unclear. The brain undergoes extensive development during adolescence and disturbances at this time are hypothesized to contribute to increased vulnerability. The transition from controlled to compulsive drug use and addiction involve long-lasting changes in neural networks including a shift from the nucleus accumbens, mediating acute reinforcing effects, to recruitment of the dorsal striatum and habit formation. This study aimed to test the hypothesis of increased dopamine release after a pharmacological challenge in adolescent rats. Potassium-evoked dopamine release and uptake was investigated using chronoamperometric dopamine recordings in combination with a challenge by amphetamine in early and late adolescent rats and in adult rats. In addition, the consequences of voluntary alcohol intake during adolescence on these effects were investigated. The data show a gradual increase of evoked dopamine release with age, supporting previous studies suggesting that the pool of releasable dopamine increases with age. In contrast, a gradual decrease in evoked release with age was seen in response to amphetamine, supporting a proportionally larger storage pool of dopamine in younger animals. Dopamine measures after voluntary alcohol intake resulted in lower release amplitudes in response to potassium-chloride, indicating that alcohol affects the releasable pool of dopamine and this may have implications for vulnerability to addiction and other psychiatric diagnoses involving dopamine in the dorsal striatum.

Palm, Sara

Abstract [en]

Genes and environment interact to determine an individual’s vulnerability or resilience to several psychiatric disorders, including alcohol use disorder (AUD). Alcohol use is often initiated during adolescence and early onset drinking is associated with increased risk for later AUD. Childhood and adolescence are periods of extensive brain maturation, which makes young individuals more susceptible to environmental influence. However, little is known about early environmental influence on reward pathways and behaviors involved in the development of AUD. Changes in the endogenous opioid and dopamine systems, as well as individual differences in risk behaviors are all believed to play important roles in the increased vulnerability seen after adverse early life events and early onset drinking. The overall aim of the thesis was therefore to investigate the influence of early environmental factors on adolescent alcohol intake, endogenous opioids, dopamine dynamics and alcohol-induced effects in rats to increase our knowledge of neurobiological factors underlying vulnerability to AUD. Furthermore, individual behavioral differences and their correlation to basal and drug-induced neurobiological responses in rats were also investigated. Animal models of different early environments, e.g. maternal separation and social vs. single housing, and adolescent alcohol consumption have been used to study effects on behavior, endogenous opioid peptides and dopamine dynamics. The results identified the amygdala and dorsal striatum as interesting brain regions in which endogenous opioids and dopamine, respectively, are impacted by early environmental factors. The amygdala and the dorsal striatum are both hypothesized to be involved in the shift from initial drug use to compulsive use and changes in these areas may be underlying environmentally increased vulnerability to AUD. Furthermore, behavioral phenotypes in relation to individual neurobiological responses were identified. High risk-taking behavior was associated with a more pronounced response to amphetamine, but the inherent dopamine response was instead associated with risk-assessment behavior. In conclusion, several brain regions of interest for future research were identified. Furthermore, the results contribute to increased understanding of factors involved in the development of vulnerability for AUD in adolescents and young adults.